In this lesson, we begin to look at the concepts of sustainable development, the main drivers of sustainable development, and how sustainable development is directly dependent on renewable energy. The title of this book and the first chapter both refer to the term "sustainable energy," as opposed to renewable energy. Sustainable energy, while necessarily taking into account renewables, can also include the use of lower-CO2 output fossil fuels and nuclear reactions to satisfy energy demands, as long as the long-term and medium-term environmental effects are taken into account and remediated. The bottom line is that societies globally cannot move forward directly into the use of renewables only, and that some energy pathway towards the future that entails an equitable economic and social development of most underdeveloped countries is going to require use of fossil fuel energy. Nuclear energy, unlike many renewables, still has significant engineering hurdles to overcome before it is made considerably safer to use and store over the medium to long term, and while it is often considered a zero-output energy source, one needs to take into account the entire lifecycle of the nuclear fuel which includes significant inputs of fossil fuel at various points along the way.
In our current era, human comfort, happiness, well-being, health, security, etc., are all tied directly to energy access and consumption levels. Energy consumption per capita is itself an indicator of a nation's development status. As societies develop beyond meeting basic needs, they consume and become more dependent on energy in support of improvements in lifestyle and welfare. The biggest problem, of course, will be the energy required to bring the rest of the developing world up to the levels found in the developed world.
In Chapter 1 of Sustainable Energy, the authors frame the overall problem as the energy – prosperity – environmental dilemma, as these three threads are intricately intertwined. Energy helps achieve prosperity, but also its extraction and transformation creates significant environmental problems. As societies achieve greater prosperity, their dependence on energy and on environmental services increases exponentially. To improve the environment, there needs to be fewer pressures put on ecosystems such as increased weather variability, toxic outputs, strip mining, deforestation, air pollution, habitat fracturing, groundwater pollution, surface water pollution, etc.
Renewable energies, as they tie into natural processes, attempt to address this problem in various ways. However, as we have seen, there are significant environmental spillovers with renewables as well. While there is no perfect solution to the trifold dilemma, there are ways to optimize energy and prosperity while minimizing environmental damage, if not figuring out a way to actually improve the environment.
This video (15 seconds) below diagrams the relationships between these three directives in the dilemma: